488nm 25mW 3.5um single-mode pigtail laser is a high-performance semiconductor laser with the characteristics of stable wavelength, adjustable output power, and high fiber coupling efficiency. Its main parameters include: central wavelength 488nm, output power 25mW, fiber core diameter 3.5um, and single-mode fiber coupling technology. This laser is output through a pigtail, which is easy to ...
The 430nm 1W semiconductor laser has a series of remarkable technical characteristics. First, its small size and light weight make it easy to integrate in various application scenarios. Secondly, the laser has high electro-optical conversion efficiency, long working life, low power consumption, and can be directly electrically modulated, making it easy to achieve optoelectronic integration ...
This is a 780nm 80mW laser system. It supports a wide AC voltage range of 90~240V. Its beam quality is excellent. The spot mode is TEM00, and the spot is perfectly circular. The laser power can be adjusted from 0~80mW, and it supports two working modes of CW/Modulation. In the vast field of laser technology, ...
This is a 638nm 5Watt high-power semiconductor laser, and a heat sink is added under the laser module. There are CW/TTL/Analog 3 working modes switchable on the back of the laser power supply. In the video is a line laser, a 45° line lens was customized at the laser outlet. Its divergence angle is 45°, 30°~90° ...
Is is a 689nm red laser system. The output power of the laser is adjustable from 0 to 1800mW. It supports 3 working modes, CW/TTL/Analog. In TTL/Analog modulation mode, an external modulation signal needs to be connected. The following video demonstrates the CW working mode of the laser. This laser is equipped with a pluggable ...
Please watch the following video first: It is a 520nm 2800mW green laser system. This laser supports 3 working modes: CW, TTL, Analog. In addition, the Lock crystal head cannot be pulled out. External signal Mod Input, no need to connect in CW working mode. The laser output power can be adjusted by adjusting the operating ...
The following are some common laboratory high power laser real shots. These high power lasers are equipped with heat sinks, which can effectively extend the continuous working time of the laser. All of them have three working modes: CW/TTL/Analog. Let’s check it now. The first one is 405nm 12W blue semiconductor laser. High Power Semiconductor Laser — 445nm ...
This is 880nm 20W high power infrared laser. A fiber coupling interface is added to the laser output port, which can be inserted into a fiber. A cooling device is added at the bottom of the laser module, which is composed of aluminum sheet and cooling fans. The laser supports CW continuous work and modulation ...
It’s a 638nm 15W semiconductor laser system.15W laser is high power, we have equipped a radiator in the laser head. The radiator at the bottom of the laser head has 3 cooling fans, which can effectively extend the continuous working time of the high-power laser. The CW/TTL/Analog on the back of the power supply has ...
This is 940nm 20W IR Laser Source. The laser head has a heat dissipation base, which can effectively extend the continuous working time of the laser. The radiator has two cooling fans. The back of the laser head and the power supply, the 3 working modes of the laser, CW/TTL/Analog are set from the back ...
